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Imagine going on your adventures with the comfort of a slipper but with the durability of a boot. Thats exactly what you get with the V-Tex All-Season Nanotech Shoes. With 12 different features, youll never want to take off these impressive shoes. Resistant to cold temperatures, waterproof, and sand-proof, theyre perfect for everything from the beach to the mountains. Theyre even wind-proof and heat-resistant. For those who are always on the go, theyre totally breathable, stain-proof, and antibacterial to keep you looking (and smelling) your best. So, how do these shoes do it? This is all thanks to their advanced nanotech knit material. Pairing with a cloud-like sole, the V-Tex Shoes remain superbly lightweight as they cushion your every step. From winter through the summer, the V-Tex Shoes come in high top and low top options as well as nine different colors.

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These All-Season Nanotech Shoes Can Truly Withstand the Elements - Gadget Flow

GlobalSilver Inks and PastesMarket report is a professional and in-depth study on the current state of the global Silver Inks and Pastes industry with a focus on the market. The report provides key statistics on the market status of the Silver Inks and Pastes manufacturers and is a valuable source of guidance and direction for companies and individuals interested in the industry. Overall, the report provides an in-depth insight of 2014-2025 covering all important parameters. The report covers various components like Silver Inks and Pastes improvement status, respect chain study, and Silver Inks and Pastes industry view structure are offered in this report. The check investigation identified with global Silver Inks and Pastes industry is conveyed out in this report.

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The Silver Inks and Pastes report offers the present status and the improved features of the Global Silver Inks and Pastes industry for the period 2019-2025. The report has been circulated with the subject to huge industry examination with data from industry specialists. The Silver Inks and Pastes research report incorporates a broad examination of the Silver Inks and Pastes market, assembling by different territories, areas, and commanding players. Estimation of different Silver Inks and Pastes industry use and the with respect to structure got by the market is besides evaluated in the report. Specific parameters essential in incorporate structure in the market, for instance, customer solicitation and supply figures, cost of age, net income, and offering an estimation of portrayals and affiliations are in like manner included inside the extent of the report.

The report provides a thorough analysis of some of the significant factors, which include cost, capacity, capacity utilization rate, production, revenue, production rate, consumption, import/export, supply/demand, gross, market share, CAGR, and gross margin. Besides, the report provides a comprehensive study of the key influencing factors and market inclinations, in addition to the relevant market segments and sub-segments.

Top Key Players of Silver Inks and Pastes Market:Advanced Nano Products, Cima NanoTech, Creative Materials, DIC Corporation/Sun Chemical, DuPont, Ferro Electronic Materials, Harima Chemical, Henkel, Heraeus, InkTec, Methode

Geographically,this report is segmented into several key Regions, with production, consumption, revenue (million USD), and market share and growth rate of in these regions,North America (U.S., Canada, Mexico), Europe (Germany, U.K., France, Italy, Russia, Spain etc), China, Japan, Southeast Asia, India.

Market Segment by Type, covers:Silver Inks, Silver Pastes

Market Segment by Applications, can be divided into:Traditional Thick-Film Electronics, Solar Panels, Displays, Lighting, RFIDs and Printed Silver, Sensors, Others

Key Highlights from Silver Inks and Pastes Market Study:-Production Analysis Production of the Silver Inks and Pastes market is analyzed with respect to different regions, types, and applications. Here, price analysis of various Silver Inks and Pastes Market key companies is also covered.

Competitors In this section, various Silver Inks and Pastes industry-leading players are studied with respect to their company profile, product portfolio, capacity, price, cost, and revenue.

Sales and Revenue Analysis Both, sales and revenue are studied for the different regions of the Silver Inks and Pastes Market. Another major aspect, price, which plays an important part in the revenue generation, is also measured in this section for the numerous regions.

Supply and Consumption In continuation with sales, this section studies supply and consumption for the Silver Inks and Pastes Market. This part also shelters light on the gap between supply and consumption. Import and export statistics are also given in this part.

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Reasons for Buying this Report:-Silver Inks and Pastes market report provides pin-point analysis for changing competitive dynamics.-It provides a forward looking perspective on different factors driving or restraining market growth.-It provides a six-year forecast assessed on the basis of how the market is predicted to grow.-It helps in understanding the key product segments and their future.-It provides pin point analysis of changing competition dynamics and keeps you ahead of competitors.

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Global Silver Inks and Pastes Market 2019 - Advanced Nano Products, Cima NanoTech, Creative Materials - Hitz Dairies

Biomedical Nanotechnology market is analyzed across major global regions. It also covers the extensive aspects of the businesses such as sales strategies, planning models to get better insights for the businesses. The rising demand for Biomedical Nanotechnology products at home is the major factor for the growth of this market. According to researchers, demand for the global market will expand to a noticeable CAGR over the period from 2019 to 2025. This study report is a treasured source of insightful data for business strategists.

It delivers a deep insight into the industry parameters by accessing the market growth, consumption volume, the upcoming market trends, and the different prices variation for the forecast year. It comprises driving factors and opportunities of the Biomedical Nanotechnology Market, which helps to study the current statistics to enlarge the industries rapidly. Restraints of the market top companies are also elaborated in this report.

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Top Key Players operating in the industry such as Advanced Diamond Technologies Inc, Advanced Nano Products Co., Limited, Altair Nanotechnologies Inc, Arrowhead Pharmaceuticals Inc, Bruker Corporation, Catalytic Materials LLC, Chemat Technology Inc, eSpin Technologies Inc, ELITech Group, Genefluidics Inc, Hanwha Nanotech Corporation (South Korea), Hybrid Plastics, Hyperion Catalysis International Inc, Integran Technologies Inc, Intrinsiq Materials Limited (IML).

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Lastly, all features of the global Biomedical Nanotechnology Market are quantitatively as well qualitatively assessed to study the global as well as regional market comparatively. This report has summarized with dominating trends in Biomedical Nanotechnology Market sectors. Different global competitors are studied on the basis of their manufacturing base, vendors and customers.

Global Biomedical Nanotechnology Market Report includes major TOC points:

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Biomedical Nanotechnology Market 2026 Report Outlining the Current State of the Market along with key players such as Advanced Diamond Technologies...

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Access to clean, safe drinking water is thought to be a basic human right. Yet, according to the World Health Organization (WHO), over 785 million people across the globe are without access to a basic drinking-water source. This has researchers around the world researching and developing a series of water treatment solutions and applications using nanotechnology.

Current WHO statistics are damning, making this an issue that must be addressed urgently as it is thought that around 2 billion people are using a contaminated water supply. In addition, over 485,000 people die each year from diarrhoeal related illnesses and diseases such as polio, typhoid, and cholera are once again being transmitted as a further consequence. Based on current trends and data, it is thought that by 2025 half of the total global population will be living in water-stressed or water-scarce areas.

While there are a wide-range of effective water purification methods and techniques including boiling, filtration, oxidation, and distillation, these often require high amounts of energy. Other treatment processes may include the use of chemical agents which is only possible in areas with an infrastructure that is up to par.

The more affordable and portable devices currently available are not always fit for purpose as they cannot guarantee 100% removal of harmful viruses, bacteria, dust, and even microplastics. So, it is thought that nanotechnology could offer affordable and accessible clean water solutions to the worlds most vulnerable populations.

Nanotechnology is a process that involves manipulating and controlling matter on the atomic scale. In the process of water purification, this involves using nanomembranes to soften the water and eradicate biological and chemical contaminants as well as other physical particles and molecules.

Whats more is that nanotechnology is portable and can be incorporated into existing commercial devices which increases the likelihood that nanotech solutions could become a feasible option for areas of the developing world and places with limited infrastructure.

In recent years scientists have improved on conventional methods that use coagulants by taking their cues from nature, notably the ocean dwelling Actinia organism. Traditional coagulants, such as aluminum sulfate and other metallic salts can pull out larger contaminants by causing them to group together and settle. However, this method is not effective for smaller particles and molecules and often requires additional methods to ensure the water is clean. Thereby increasing the cost and use of energy as several techniques are required to ensure the water is safe.

Using nanocoagulants, scientists were able to synthesize organic and inorganic matter to replicate the structure of the Actina sea anemone. The researchers produced a reversable core-shell that can catch larger particles as well as the smaller ones when it turns inside-out. This is also a one-step process which removes the need for additional technologies and opens up the potential for minimizing water purification costs.

Another viable method of water purification currently in development that makes use of nanotechnology includes utilizing magnetically active nanoparticles to extract chemicals from water. The process enables the removal of toxins from drinking-water contaminants attracting nanoparticles that consist of magnetic phases. This solution would also be low-energy and could provide an economic advantage as well as health and environmental benefits.

Other proposals for nanotech solutions include using nanoparticles to break down microplastics and a rapid nano-filter that can clean dirty water 100 times faster than current methods. Researchers are also aware that most water purification methods require access to a constant electricity supply, but this can be a significant obstacle in places with limited infrastructure or areas damaged by extreme weather conditions.

One such approach is the creation of a self-sustaining biofoam that conducts heat and electricity by combining bacteria-produced cellulose with graphene oxide. The graphene-fused foam draws water up to the surface via the cellulose layer which accelerates evaporation. This results in a layer of freshwater which can be easily collected and is safe to drink. The biofoam is also lightweight and relatively inexpensive to manufacture making it an attractive alternative to conventional methods.

Thus, as the need for clean, safe water is very much still an urgent global issue, nanotech solutions offer new and essential possibilities for the water treatment industry. The next phase of development is the scaling up of nanotechnologies to improve access to clean water. Perhaps then the future can be one that offers a new hope to the expanding global population experiencing water-stressed and water-scarce conditions.

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Can Nanotechnology Be Used to Improve Access to Clean Water? - AZoNano

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Nanotech Engineering Inc

"the new way to generateenergy"

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silicon vs graphene

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Nanotech

Ray Baughman became the Robert A. Welch Professor of Chemistry and Director of the NanoTech Institute at the University of Texas in Dallas in August 2001, after 31 years in industry. He is a Member of The National Academy of Engineering and The Academy of Medicine, Engineering and Science of Texas; a foreign member of the European Academy of Sciences; a Fellow of the Royal Society of Chemistry, the National Academy of Inventors, and the American Physical Society; an Academician of The Russian Academy of Natural Sciences; an honorary professor of 7 universities in China; and is on editorial or advisory boards of Science and other journals.

Ray has 80 issued US patents and 415 refereed publications, with over 31,200 citations and an H-index of 79. He has received the Chemical Pioneer Award of the American Institute of Chemists (1995), the Cooperative Research Award in Polymer Science and Engineering (1996), the New Materials Innovation Prize of the Avantex International Forum for Innovative Textiles (2005), Nano 50 Awards from Nanotech Briefs Magazine for Carbon Nanotube Sheets and Yarns (2006) and for Fuel Powered Artificial Muscles (2007), the NanoVic Prize from Australia (2006), the Scientific American Magazine 50 recognition for outstanding technological leadership (2006), the CSIRO Metal for Research Achievement (2006), the Chancellors Entrepreneurship and Invention Award (2007), the 21 for the 21st Century award (2007), the Alumni Distinguished Achievement Award of Carnegie Mellon University (2007), the Kapitza Metal of the Russian Academy of Natural Sciences (2007), the Graffin Lectureship of the American Carbon Society (2010), the Tech Titans Award in Education (2011), Time Magazine recognition in 50 Best Inventions of the Year (2011), the SGL Carbon Award of the American Carbon Society (2013), the Tech Titans Technology Inventors Award (2015), the 2015 Inventor Award for Energy Harvesting Materials and Systems, and the R&D 100 Gold Award for Market Disruptor Product (2015).

He was named the Honorable Yang Shixiang Professor of Nankai University and the Honorable Tang Aoqing Professor of Jilin University in 2010 and was listed 30th in the Top 100 Material Scientists of the Decade (2000-2010). The Baughman laboratory was established in his honor in China in 2014 at the Jiangnan Graphene Research Institute in Changzhou.

Mirage effect from thermally modulated transparent carbon nanotube sheets. Ali E Aliev et al 2011Nanotechnology 22 435704. (abstract) (full text)

Fuel Powered Artificial Muscles. Ebron, V. H.; Yang, Z.; Seyer, D. S.; Kozlov, M.; Oh, J.; Xie, H.; Razal, J.; Hall, L. J.; Ferraris, J. P.; MacDiarmid, A. G.; Baughman, R. H. NanoTech Institute, The University of Texas at Dallas, Richardson, TX, USA. Science (2006), 311 (5767), 1580 - 1583. (abstract) (full text)

Strong, Transparent, Multifunctional, Carbon Nanotube Sheets. Zhang, Mei; Fang, Shaoli; Zakhidov, Anvar A.; Lee, Sergey B.; Aliev, Ali E.; Williams, Christopher D.; Atkinson, Ken R.; Baughman, Ray H. NanoTech Institute, The University of Texas at Dallas, Richardson, TX, USA. Science (Washington, D.C., USA) (2005), 309(5738), 1215-1219. (abstract) (full text)

Materials science. Playing nature's game with artificial muscles . Baughman Ray H., Science (2005 Apr 1), 308(5718), 63-5.(abstract) (full text)

Multifunctional Carbon Nanotube Yarns by Downsizing an Ancient Technology. Zhang, Mei; Atkinson, Ken R.; Baughman, Ray H.. NanoTech Institute and Department of Chemistry, University of Texas at Dallas, Richardson, TX, USA. Science (Washington, DC, United States) (2004), 306(5700), 1358-1361. (abstract) (full article)

Materials science. Muscles made from metal. Baughman, Ray H.. NanoTech Institute and Department of Chemistry, The University of Texas at Dallas, Richardson, TX, USA. Science (Washington, DC, United States) (2003), 300(5617), 268-269. (abstract) (full text)

Auxetic materials: Avoiding the shrink. Baughman, Ray H. Nature (2003), 425(6959), 667.

Super-tough carbon-nanotube fibers. Dalton, Alan B.; Collins, Steve; Munoz, Edgar; Razal, Joselito M.; Ebron, Von Howard; Ferraris, John P.; Coleman, Jonathan N.; Kim, Bog G.; Baughman, Ray H.. (2003), 423(6941), 703.

Carbon nanotubes--the route toward applications . Baughman Ray H; Zakhidov Anvar A; de Heer Walt A. Science (2002 Aug 2), 297(5582), 787-92.

Carbon nanotube actuators. Baughman, Ray H.; Cui, Changxing; Zakhidov, Anvar A.; Iqbal, Zafar; Barisci, Joseph N.; Spinks, Geoff M.; Wallace, Gordon G.; Mazzoldi, Alberto; De Rossi, danilo; Rinzler, Andrew G.; Jaschinski, Oliver; Roth, Siegmar; Kertesz, Miklos. Science (1999), 284 (5418), 1340-1344.

Direct observations of structural phase transitions in planar crystallized ion plasmas. Mitchell, T. B.; Bollinger, J. J.; Dubin, D. H. E.; Huang, X.-P.; Itano, W. M.; Baughman, R. H.. Science (1998), 282(5392), 1290-1293.

Negative Poisson's ratios as a common feature of cubic metals. Baughman, Ray H.; Shacklette, Justin M.; Zakhidov, Anvar A.; Stafstrom, Sven. Nature (1998), 392(6674), 362-365.

Carbon structures with three-dimensional periodicity at optical wavelengths. Zakhidov, Anvar A.; Baughman, Ray H.; Iqbal, Zafar; Cui, Changxing; Khayyrullin, Ilyas; Dantas, O.; Marti, Jordi; Ralchenko, Victor G. Science (1998), 282 (5390), 897-901.

Materials with negative compressibilities in one or more dimensions. Baughman, Ray H.; Stafstrom, Sven; Cui, Changxing; Dantas, Socrates O. Science (1998), 279 (5356), 1522-1524.

Crystalline networks with unusual predicted mechanical and thermal properties. Baughman, Ray H.; Galvao, Douglas S. Nature (1993), 365 (6448), 735-7.

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NanoTech Institute - UTD

Guided by theory and enabled by synthesis, the NanoTech Institute develops new science and technology exploiting the nanoscale.

Our researchers inspire students by creating an atmosphere of excitement, fun, and creativity.

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The University of Texas at Dallas [ Recipient's Name ] * The Alan G MacDiarmid NanoTech Institute, BE 26 800 West Campbell Road Richardson, TX 75080-3021

Phone: 972-883-6530 Fax: 972-883-6529

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On August 20th, the 2013 class of NanoExplorers will presenting their research that they conducted along the researchers of the NanoTech Institute. See this flyer for more information. See the schedule here.

An article covering Ali Aliev's and his collegues work on carbon nanotube thermoacustic transducers has been put online. You can read the whole article here.

The faculty, staff, and students of the Alan G. MacDiarmid NanoTech Institute at The University of Texas at Dallas welcome the 2013 class of NanoExplorers. We had over 200 highly qualified applicants this year. (see more)

The talk is devoted to recent achievements made by our Russian (NUST MISiS, Moscow) and French (G2Elab, Grenoble) groups in application of original shape memory composites for both microactuation and thermal energy harvesting. Novel prestrained scheme of shape memory composite allows creating actuators able to giant reversible bending deformation. (see more)

The faculty, staff, and students of the Alan G. MacDiarmid NanoTech Institute at The University of Texas at Dallas welcome the 2012 class of NanoExplorers. We had over 200 highly qualified applicants this year. (see more)

Read about former NanoExplorer Amy Chyao and her work at UT Dallas

Experience the collaboration of the NanoTech Institute with the University of Guanajuato (Guanajuato, Mexico) through the eyes of Raquel Ovalle Robles.

Discover the NanoTech Institute's work through its library of publications.

Use the NanoTech Institute's facilities to conduct cutting-edge research.

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NanoTech Institute - The University of Texas at Dallas

Nanoscience Enabled

Scientists have tried for decades to harness the power of the Sun to establish cost effective processes to convert sunlight into energy. Sadly, they have had little success. Yes, they exist, yes, they are sold, but they are expensive and not cost effective. There is such a demand for Solar Panels that sales have increased each year despite the fact that they are cost prohibitive. Even the Federal Government offered subsidies to offset losses. Our Nano Solar Panels now give consumers a positive return on investment, making them the ideal choice, and demand for our panels shall be enormous and immediate.

At Nanotech Engineering Inc. we are developing Solar Panels the size of a FedEx Envelope. By layering sheets of Graphene as a substructure, we put a Carbon Nanotube Forest over the top, with our proprietary mineral solution. As the Suns rays hit the array, electrons are generated through the forest much faster than Silicon. Clearly in less than ideal weather this number drops, however the Panels are still more efficient than traditional solar panels in cloudy weather, remember photons still move through clouds, so that we will see panels in places previously unthinkable in the past.

Our solar panels are combined using a printing device, it combines the Graphene sheets into a single structure, from there a Graphene Forest is applied on the surface with our proprietary minerals, creating a lightweight panel that is stronger than steel yet has pushed the upper limits of the energy that can be received and used by the Sun. In short this is by far the most efficient Solar Panel ever created.

Our main market is replacing the old Solar Panels and applications for those that otherwise wouldnt use solar. We also are anticipating applications in parts of the world that have less than ideal weather, if our panel can for example only get 40% in New York, or 20% in Denmark, it will be used, achieving the dream of a solar world!

Our invention has many applications outside of energy for homes and municipalities, John Hart, an assistant professor of mechanical engineering, chemical engineering and art and design at the University of Michigan, says, "This is an exciting new approach to designing solar cells, and moreover an impressive example of how complementary nanostructured materials can be engineered to create new energy devices. For applications where weight is a crucial factor such as in spacecraft, aviation or for use in remote areas of the developing world where transportation costs are significant such lightweight cells could already have great potential

Solar Skin Design

One major barrier for the solar industry is the fact that a high percentage of homeowners consider solar panels to be an unsightlyhome addition. Luckily, Nanotech Engineering, is making major strides with the concept of aesthetic enhancement that allows solar panels to have a customized look. By including almost any color into the mineral solution, we can match or come close to most homes color.

Shockley-Queisser Limit

Ever since 1961 it has been known that there is an absolute theoretical limit, called the Shockley-Queisser Limit, to how efficient traditional solar cells can be in their energy conversion. For a single-layer cell made of silicon the type used for the vast majority of todays solar panels that upper limit is about 32 percent. However, by using Carbon Nanotubes with our proprietary Nano Particles with a layered Graphene base, our panel is about three times more efficient.

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NANOTECH SOLAR PANELS NanoTech Engineering

Moore Nanotechnology Systems, LLC (Nanotech) is dedicated to the development of ultra-precision machining systems and their successful utilization through the formation of lifelong customer partnerships. Total customer satisfaction of our products and services has always been, and will continue to be, our highest priority as we support our customers expansion into new markets through the design and development of new products, complimentary machine accessories, and enhancements to our existing products.

Our ultra-precision machine systems support single point diamond turning, deterministic micro-grinding, precision micro-milling, and glass press molding for the production of advanced optics including diamond turning sphere, asphere, freeform, conformal, lens array, and plano surfaces. We offer a diverse line of options and accessories to customize our machining platforms to suit our customers specific applications. From our state-of-the-art NFTS-6000 Fast Tool Servo systemto the industry's first touch swipe gesture interactive Windows based HMI, Nanotech builds to a higher standard of quality and reliability.

(click on a photo below to see a larger version)

Established in 1997, our abbreviated name Nanotech was from the beginning not only our registered trademark, but also a symbol of our commitment to developing highly advanced equipment and manufacturing processes capable of achieving nanometer level surface accuracies on advanced optical components. Our ultra-precision machining systems support many industries including consumer electronics, defense, aerospace, lighting, medical, automotive, and ophthalmic. Our world-class team of specialists has dedicated their careers to this technology, and their vision has made Nanotech the fastest growing company in this field.

For additional information visit our Machines Page. You can also E-mail Us or call603-352-3030 to discuss your specific requirements.

Top 100 Private Companies in New Hampshire

Beginning in2010, Business NH Magazine has each and every year ranked Moore Nanotechnology Systems as one of the top 100 private companies in the State of NH.

In addition, Moore Nanotechnology Systems, LLC was selected as 2008 Company of the Year by the State of New Hampshire Department of Economic Development

Dec. 3, 2008 Moore Nanotechnology Systems was lauded by Department of Resources and Economic Development Commissioner George Bald for its innovative spirit which have made it the fastest growing company in the precision machining field. read more >

Our 250UPLv2, 450UPLv2, 650FGv2 & 100UPGv1systems form a versatile family ofUltra Precision machinesfeaturingall the below major value added benefits and features:

NanoSMART Touch / Swipe Interactive HMI. We own the source code on our unique and powerful HMIfeaturing 22" wide customizable screens and numerous advanced capabilities tosimplify operator setups. Don't settle forold stylecontrollers with justone user screen regardless of the application or individual.Quickly and easily create customscreen layoutsdisplaying only the data youneed for maximum user efficiency. Watch NanoSMART Video.

Porous Graphite Work Spindle. Only Nanotech's systems have an impact resistant porous graphite air bearing work spindle. Benefits of porous graphite include high robustness, smooth engineered air flow rates, proven durability in numerous industrial applications and a natural lubricity which adds an extra layer of protection.This spindle has been tested at 1000rpmwith total air cutoff resulting in no damage. Do not try this with any other air bearing spindle! Watch Spindle Robustness Test Video.

Industry Leading 8 Picometer Feedback Resolution. Once again creating a new industry standard for ultra-precision.

Universal Utilities Cabinet. We've combined all electrical, hydraulic and pnuematic systems into one space saving unit.

Contact us for complete detailed discussions regarding these exclusive features as well as other performance based engineered benefits.

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Moore Nanotechnology Systems: Ultra-Precision Machining Systems

Durham Herald Sun

Duke combines immunotherapy, tumor-roasting nanotech to vaccinate mice against cancer Durham Herald Sun By combining an FDA-approved cancer immunotherapy with an emerging tumor-roasting nanotechnology, Duke University researchers improved the efficacy of both therapies in a proof-of-concept study using mice. The potent combination also attacked ...

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Duke combines immunotherapy, tumor-roasting nanotech to vaccinate mice against cancer - Durham Herald Sun

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Aug. 25, 2017

An international research team led by scientists at The University of Texas at Dallas and Hanyang University in South Korea has developed high-tech yarns that generate electricity when they are stretched or twisted.

In a study published in the Aug. 25 issue of the journal Science, researchers describe twistron yarns and their possible applications, such as harvesting energy from the motion of ocean waves or from temperature fluctuations. When sewn into a shirt, these yarns served as a self-powered breathing monitor.

The easiest way to think of twistron harvesters is, you have a piece of yarn, you stretch it, and out comes electricity, said Dr. Carter Haines BS11, PhD15, associate research professor in the Alan G. MacDiarmid NanoTech Institute at UT Dallas and co-lead author of thearticle. The article also includes researchers from South Korea, Virginia Tech, Wright-Patterson Air Force Base and China.

Yarns Based on Nanotechnology

The yarns are constructed from carbon nanotubes, which are hollow cylinders of carbon 10,000 times smaller in diameter than a human hair. The researchers first twist-spun the nanotubes into high-strength, lightweight yarns. To make the yarns highly elastic, they introduced so much twist that the yarns coiled like an over-twisted rubber band.

In order to generate electricity, the yarns must be either submerged in or coated with an ionically conducting material, or electrolyte, which can be as simple as a mixture of ordinary table salt and water.

Fundamentally, these yarns are supercapacitors, said Dr. Na Li, a research scientist at the NanoTech Institute and co-lead author of the study. In a normal capacitor, you use energy like from a battery to add charges to the capacitor. But in our case, when you insert the carbon nanotube yarn into an electrolyte bath, the yarns are charged by the electrolyte itself. No external battery, or voltage, is needed.

When a harvester yarn is twisted or stretched, the volume of the carbon nanotube yarn decreases, bringing the electric charges on the yarn closer together and increasing their energy, Haines said. This increases the voltage associated with the charge stored in the yarn, enabling the harvesting of electricity.

Stretching the coiled twistron yarns 30 times a second generated 250 watts per kilogram of peak electrical power when normalized to the harvesters weight, said Dr. Ray Baughman, director of the NanoTech Institute and a corresponding author of the study.

Although numerous alternative harvesters have been investigated for many decades, no other reported harvester provides such high electrical power or energy output per cycle as ours for stretching rates between a few cycles per second and 600 cycles per second.

Lab Tests Show Potential Applications

In the lab, the researchers showed that a twistron yarn weighing less than a housefly could power a small LED, which lit up each time the yarn was stretched.

To show that twistrons can harvest waste thermal energy from the environment, Li connected a twistron yarn to a polymer artificial muscle that contracts and expands when heated and cooled. The twistron harvester converted the mechanical energy generated by the polymer muscle to electrical energy.

There is a lot of interest in using waste energy to power the Internet of Things, such as arrays of distributed sensors, Li said. Twistron technology might be exploited for such applications where changing batteries is impractical.

The researchers also sewed twistron harvesters into a shirt. Normal breathing stretched the yarn and generated an electrical signal, demonstrating its potential as a self-powered respiration sensor.

Electronic textiles are of major commercial interest, but how are you going to power them? Baughman said. Harvesting electrical energy from human motion is one strategy for eliminating the need for batteries. Our yarns produced over a hundred times higher electrical power per weight when stretched compared to other weavable fibers reported in the literature.

Electricity from Ocean Waves

In the lab we showed that our energy harvesters worked using a solution of table salt as the electrolyte, said Baughman, who holds the Robert A. Welch Distinguished Chair in Chemistry in the School of Natural Sciences and Mathematics. But we wanted to show that they would also work in ocean water, which is chemically more complex.

If our twistron harvesters could be made less expensively, they might ultimately be able to harvest the enormous amount of energy available from ocean waves.

Dr. Ray Baughman, director of the NanoTech Institute and a corresponding author of the study

In a proof-of-concept demonstration, co-lead author Dr. Shi Hyeong Kim, a postdoctoral researcher at the NanoTech Institute, waded into the frigid surf off the east coast of South Korea to deploy a coiled twistron in the sea. He attached a 10 centimeter-long yarn, weighing only 1 milligram (about the weight of a mosquito), between a balloon and a sinker that rested on the seabed.

Every time an ocean wave arrived, the balloon would rise, stretching the yarn up to 25 percent, thereby generating measured electricity.

Even though the investigators used very small amounts of twistron yarn in the current study, they have shown that harvester performance is scalable, both by increasing twistron diameter and by operating many yarns in parallel.

If our twistron harvesters could be made less expensively, they might ultimately be able to harvest the enormous amount of energy available from ocean waves, Baughman said. However, at present these harvesters are most suitable for powering sensors and sensor communications. Based on demonstrated average power output, just 31 milligrams of carbon nanotube yarn harvester could provide the electrical energy needed to transmit a 2-kilobyte packet of data over a 100-meter radius every 10 seconds for the Internet of Things.

Researchers from the UT Dallas Erik Jonsson School of Engineering and Computer Science and Lintec of Americas Nano-Science & Technology Center also participated in the study.

The investigators have filed a patent on the technology.

In the U.S., the research was funded by the Air Force, the Air Force Office of Scientific Research, NASA, the Office of Naval Research and the Robert A. Welch Foundation. In Korea, the research was supported by the Korea-U.S. Air Force Cooperation Program and the Creative Research Initiative Center for Self-powered Actuation of the National Research Foundation and the Ministry of Science.

Media Contact: Amanda Siegfried, UT Dallas, (972) 883-4335, [emailprotected] or the Office of Media Relations, UT Dallas, (972) 883-2155, [emailprotected]

Link:

No Batteries Required: Energy-Harvesting Yarns Generate Electricity - University of Texas at Dallas (press release)

Nanotech Security (TSXV:NTS) has announced the early retirement of a $3 million secured note.

As quoted in the press release:

The note was previously issued to finance real estate assets acquired in the Fortress Optical Features Ltd. acquisition in September 2014. It bore a 4% annual interest rate and was due in September 2017.

The Company used funds originally earmarked to redeem its $4.2 million convertible debentures. As many debenture holders elected to convert their debentures into common shares of the Company, only $1.4 million was required to be repaid. With the recent retirement of the convertible debentures and now with the payment of the $3.0 million secured note, the Company is debt free.

Given our recent $13.3 million financing, the cash from operations generated in the third quarter, and the visibility into our pipeline, we decided to repay the debt early, instead of refinancing, to reduce our interest expense, said Nanotech CEO Doug Blakeway. Doing so saves the Company $120,000 per yearin interest and the Company is now debt free with a strong cash balance to execute on our growth opportunities.

Click here to read the full press release.

Link:

Nanotech Security Retires $3.0 Million Note | Investing News Network - Investing News Network (registration)

Scientists at Duke University say they have combined a cancer immunotherapeutic with nanotechnology to improve the efficacy of both therapies in a mouse study. They published their work, "Synergistic Immuno Photothermal Nanotherapy (SYMPHONY) for the Treatment of Unresectable and Metastatic Cancers," in Scientific Reports.

The new approach also attacked satellite tumors and distant cancerous cells, leading to two mice being cured of the disease and one being vaccinated against it.

Using a combination of immune-checkpoint inhibition and plasmonic gold nanostar (GNS)-mediated photothermal therapy, we were able to achieve complete eradication of primary treated tumors and distant untreated tumors in some mice implanted with the MB49 bladder cancer cells, wrote the investigators. Delayed rechallenge with MB49 cancer cells injection in mice that appeared cured by SYMPHONY did not lead to new tumor formation after 60 days observation, indicating that SYMPHONY treatment induced effective long-lasting immunity against MB49 cancer cells.

"The ideal cancer treatment is noninvasive, safe, and uses multiple approaches," said Tuan Vo-Dinh, Ph.D., the R. Eugene and Susie E. Goodson Professor of Biomedical Engineering, professor of chemistry, and director of the Fitzpatrick Institute for Photonics at Duke University. "We also aim at activating the patient's own immune system to eradicate residual metastatic tumors. If we can create a long-term anticancer immunity, then we'd truly have a cure."

The specific photothermal immunotherapy was developed by Duke researchers and uses lasers and gold nanostars to heat and kill tumors in combination with an immunotherapeutic drug. The technique works based on the ability of nanoparticles to accumulate preferentially within a tumor due to its leaky vasculature, according to the scientists, who add that gold nanostars have the advantage of geometry. With many sharp spikes, they can capture the laser's energy more efficiently, thus permitting them to work with less exposure, making them more effective deeper within a tissue.

"The nanostar spikes work like lightning rods, concentrating the electromagnetic energy at their tips," said Dr. Vo-Dinh. "We've experimented with these gold nanostars to treat tumors before, but we wanted to know if we could also treat tumors we didn't even know were there or tumors that have spread throughout the body."

Dr. Vo-Dinh explained that the body's immune system protects against the growth of cancerous cells. Many tumors, however, overproduce the programmed death-ligand 1 (PD-L1) molecule, which disables T cells so they cannot attack the tumor. A number of drugs are being developed to block the action of PD-L1.

In the study, the Duke team injected bladder cancer cells into both hind legs of a group of mice. After waiting for the tumors to grow, the researchers explored a number of therapies, but only on one of the legs.

Those that received no treatments all quickly succumbed to the cancer, as did those receiving only the gold nanostar phototherapy, because the treatment did nothing to affect the tumor in the untreated leg. While a few mice responded well to the immunotherapy alone, with the drug stalling both tumors, none survived more than 49 days.

The group treated with both the anti-PD-L1 immunotherapy and the gold nanostar phototherapy fared much better, with two of the five mice surviving more than 55 days.

"When a tumor dies, it releases particles that trigger the immune system to attack the remnants," said Dr. Vo-Dinh. "By destroying the primary tumor, we activated the immune system against the remaining cancerous cells, and the immunotherapy prevented them from hiding."

According to Dr. Vo-Dinh, one mouse is still alive almost a year out with zero recurrence of the cancer. When more cancerous cells were injected, the mouse's immune system attacked and destroyed them, demonstrating a vaccine effect in the cured mouse.

The Duke team has plans to follow up with larger cohorts of mice and to work with other clinical researchers to test the treatment on mouse models of brain, breast, and lung cancers.

Read the rest here:

Immunotherapy, Nanotech Combine to Kill Cancer Cells More ... - Genetic Engineering & Biotechnology News

The Money Flow Indicator for Nanotech Security Corp (NTS.V) has touched above 60 and has found a place on investors radar as it potentially nears the key 70 mark. The MFI indicator is an oscillator which ranges between fixed values of 0 and 100 and as with most oscillators divergences form a major part of trading with the MFI indicator. Traders look for divergence between the indicator and the price action. If the price trends higher and the MFI trends lower (or vice versa), a reversal may be imminent. Market tops tend to occur when the MFI is above 70 or 80. Market bottoms tend to occur when the MFI is below 20.

Investors should however be wary of trading these levels blindly. As the warning goes, an overbought market can remain overbought for an extended period. Strong trends can present a problem for these classic overbought and oversold levels. The MFI can become overbought, and prices can simply continue higher when the uptrend is strong. Conversely, the MFI can become oversold, and prices can simply continue lower when the downtrend persists. Like the RSI, this indicator is best used in conjunction with another indicator as confirmation.

Taking a deeper look into the technicals, Nanotech Security Corp (NTS.V) currently has a 50-day Moving Average of 1.30, the 200-day Moving Average is 1.31, and the 7-day is noted at 1.37. Following moving averages with different time frames may help offer a wide variety of stock information. A longer average like the 200-day may serve as a smoothing tool when striving to evaluate longer term trends. On the flip side, a shorter MA like the 50-day may help with identifying shorter term trading signals. Moving averages may also function well as a tool for determining support and resistance levels.

Traders may be relying in part on technical stock analysis. Nanotech Security Corp (NTS.V) currently has a 14-day Commodity Channel Index (CCI) of 37.88. Despite the name, CCI can be used on other investment tools such as stocks. The CCI was designed to typically stay within the reading of -100 to +100. Traders may use the indicator to determine stock trends or to identify overbought/oversold conditions. A CCI reading above +100 would imply that the stock is overbought and possibly ready for a correction. On the other hand, a reading of -100 would imply that the stock is oversold and possibly set for a rally.

At the time of writing, the 14-day ADX for Nanotech Security Corp (NTS.V) is 25.53. Many technical chart analysts believe that an ADX value over 25 would suggest a strong trend. A reading under 20 would indicate no trend, and a reading from 20-25 would suggest that there is no clear trend signal. The ADX is typically plotted along with two other directional movement indicator lines, the Plus Directional Indicator (+DI) and Minus Directional Indicator (-DI). Some analysts believe that the ADX is one of the best trend strength indicators available.

The Relative Strength Index (RSI) is one of multiple popular technical indicators created by J. Welles Wilder. Wilder introduced RSI in his book New Concepts in Technical Trading Systems which was published in 1978. RSI measures the magnitude and velocity of directional price movements. The data is represented graphically by fluctuating between a value of 0 and 100. The indicator is computed by using the average losses and gains of a stock over a certain time period. RSI can be used to help spot overbought or oversold conditions. An RSI reading over 70 would be considered overbought, and a reading under 30 would indicate oversold conditions. A level of 50 would indicate neutral market momentum. The 14-day RSI is currently sitting at 57.53, the 7-day is at 56.83, and the 3-day is spotted at 53.78.

By Journal Contributor

Original post:

Placing the Money Flow Index Under Scrutiny For Nanotech Security Corp (NTS.V) - Union Trade Journal

[NAIROBI] A five-year project focusing on the use of nanotechnology to address environmental pollution in Africa has received support under a funding scheme between Canada and South Africa.

The research project, which aims to develop systems capable of reducing the cost of water purification methods, will be implemented through a collaboration between Rhodes University in South Africa, the University of Ottawa in Canada, and the United States International University-Africa (USIU-Africa) in Kenya.

Contaminated water and poor sanitation aid transmission of diseases such as typhoid, cholera, dysentery and schistosomiasis, which contribute to mortality in children under five years.

According to the WHO, in 2015 nearly half the 663 million people globally who did not have clean water lived in Sub-Saharan Africa.

Edith Amuhaya, an assistant professor of organic chemistry at USIU-Africa, who is also one of the scientists leading implementation of the project, tells SciDev.Net that the initiative aims to look at an alternative and hopefully better method of water purification. The advantage that [nanotech] has is that it reduces likelihood of microbes developing antimicrobial resistance, she points out.

According to Amuhaya, the immediate beneficiaries will be university students set to receive training in applications of nanotechnology. For the Kenyan students, they will get a chance to travel to South Africa and Canada to carry out part of their research work, she says.

Amuhaya adds that the project could help students get much-needed hands-on training that is not readily available locally. Outputs such as publications and patents could also increase Africas contributions to the field of nanotechnology.

But Ngila cautions on affordability. Nanotechnology is expensive, she says, and to succeed, it will require researchers working together with policymakers to fund and create regulations that guide its use on the continent.

She also calls for the establishment of equipped laboratories necessary for characterising nanoparticles, as Africa currently largely lacks the capacity. This piece was produced by SciDev.Nets Sub-Saharan Africa English desk.

The rest is here:

Africa-Canada scheme funds nanotech to purify water - SciDev.Net

The RSI, or Relative Strength Index is a popular oscillating indicator among traders and investors. The RSI operates in a range-bound area with values between 0 and 100. When the RSI line moves up, the stock may be experiencing strength. The opposite is the case when the RSI line is heading lower. Different time periods may be used when using the RSI indicator. The RSI may be more volatile using a shorter period of time. Many traders keep an eye on the 30 and 70 marks on the RSI scale. A move above 70 is widely considered to show the stock as overbought, and a move below 30 would indicate that the stock may be oversold. NanoTech Gaming Inc (NTGL) has a 14-day RSI of 45.70, the 7-day is at 43.28, and the 3-day is resting at 45.32.

NanoTech Gaming Inc (NTGL) currently has a 14-day Commodity Channel Index (CCI) of -45.02. Active investors may choose to use this technical indicator as a stock evaluation tool. Used as a coincident indicator, the CCI reading above +100 would reflect strong price action which may signal an uptrend. On the flip side, a reading below -100 may signal a downtrend reflecting weak price action. Using the CCI as a leading indicator, technical analysts may use a +100 reading as an overbought signal and a -100 reading as an oversold indicator, suggesting a trend reversal.

Shares of NanoTech Gaming Inc (NTGL) have a 200-day moving average of 0.01. The 50-day is 0.01, and the 7-day is sitting at 0.00. Using a bigger time frame to assess the moving average such as the 200-day, may help block out the noise and chaos that is often caused by daily price fluctuations. In some cases, MAs may be used as strong reference points for spotting support and resistance levels.

The Average Directional Index or ADX is technical analysis indicator used to describe if a market is trending or not trending. The ADX alone measures trend strength but not direction. Using the ADX with the Plus Directional Indicator (+DI) and Minus Directional Indicator (-DI) may help determine the direction of the trend as well as the overall momentum. Many traders will use the ADX alongside other indicators in order to help spot proper trading entry/exit points. Currently, the 14-day ADX for NanoTech Gaming Inc (NTGL) is 31.46. Generally speaking, an ADX value from 0-25 would indicate an absent or weak trend. A value of 25-50 would indicate a strong trend. A value of 50-75 would signal a very strong trend, and a value of 75-100 would indicate an extremely strong trend. The Williams Percent Range or Williams %R is another technical indicator that may be useful for traders and investors.

The Williams %R is designed to provide a general sense of when the equity might have reached an extreme and be primed for a reversal. As a general observance, the more overbought or oversold the reading displays, the more likely a reversal may take place. The 14 day Williams %R for NanoTech Gaming Inc (NTGL) is noted at -62.22. Many consider the equity oversold if the reading is below -80 and overbought if the indicator is between 0 and -20.

Investors may be trying to find stocks that are building momentum. Finding these stocks may help bolster the portfolio going into the second half of the year. Investors often look to pounce on any opportunity in the stock market. Without properly being prepared, these opportunities may disappear quickly. Staying on top of fundamentals, technicals, and earnings, may help investors stay prepared.

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Stock Overview: Technical Check on NanoTech Gaming Inc (NTGL) - Danville Daily

Shares of Industrial Nanotech Inc (INTK) have been trending up over the past five bars, revealing solid bullish momentum for the shares, as they ran 7.69% for the week. Looking further out we note that the shares have moved -15.15% over the past 4-weeks, 12.00% over the past half year and -58.82% over the past full year.

Industrial Nanotech Inc (INTK) currently has a 14 day Williams %R of -18.18. In general, if the level goes above -20, the stock may be considered to be overbought. Alternately, if the indicator goes under -80, this may signal that the stock is oversold. The Williams Percent Range or Williams %R is a technical indicator that was developed to measure overbought and oversold market conditions. The Williams %R indicator helps show the relative situation of the current price close to the period being observed.

We can also take a look at the Average Directional Index or ADX of Industrial Nanotech Inc (INTK). The ADX is used to measure trend strength. ADX calculations are made based on the moving average price range expansion over a specified amount of time. ADX is charted as a line with values ranging from 0 to 100. The indicator is non-directional meaning that it gauges trend strength whether the stock price is trending higher or lower. The 14-day ADX presently sits at 23.04. In general, and ADX value from 0-25 would represent an absent or weak trend. A value of 25-50 would indicate a strong trend. A value of 50-75 would indicate a very strong trend, and a value of 75-100 would signify an extremely strong trend. At the time of writing, Industrial Nanotech Inc (INTK) has a 14-day Commodity Channel Index (CCI) of 160.61. Developed by Donald Lambert, the CCI is a versatile tool that may be used to help spot an emerging trend or provide warning of extreme conditions. CCI generally measures the current price relative to the average price level over a specific time period. CCI is relatively high when prices are much higher than average, and relatively low when prices are much lower than the average.

A commonly used tool among technical stock analysts is the moving average. Moving averages are considered to be lagging indicators that simply take the average price of a stock over a certain period of time. Moving averages can be very helpful for identifying peaks and troughs. They may also be used to assist the trader figure out proper support and resistance levels for the stock. Currently, the 200-day MA for Industrial Nanotech Inc (INTK) is sitting at 0.00. The Relative Strength Index (RSI) is a momentum oscillator that measures the speed and change of stock price movements. The RSI was developed by J. Welles Wilder, and it oscillates between 0 and 100. Generally, the RSI is considered to be oversold when it falls below 30 and overbought when it heads above 70. RSI can be used to detect general trends as well as finding divergences and failure swings. The 14-day RSI is presently standing at 50.64, the 7-day is 56.67, and the 3-day is resting at 71.33.

By Journal Contributor

Read more:

Industrial Nanotech Inc (INTK) Shares Climb Higher For the Week - Union Trade Journal

Nanotech Security Corp (NTS.V) has ended the week in the red, yielding negativeresults for the shares at they ticked -0.72%.In taking a look at recent performance, we can see that shares have moved 8.66% over the past 4-weeks, 16.95% over the past half year and 26.61% over the past full year.

Traders are keeping a keen eye on shares of Nanotech Security Corp (NTS.V). The Average Directional Index or ADX may prove to be an important tool for trading and investing. The ADX is a technical indicator developed by J. Welles Wilder used to determine the strength of a trend. The ADX is often used along with the Plus Directional Indicator (+DI) and Minus Directional Indicator (-DI) to identify the direction of the trend. Presently, the 14-day ADX is resting at 25.53. Generally speaking, an ADX value from 0-25 would indicate an absent or weak trend. A value of 25-50 would indicate a strong trend. A value of 50-75 would signal a very strong trend, and a value of 75-100 would indicate an extremely strong trend.

Some investors may find the Williams Percent Range or Williams %R as a helpful technical indicator. Presently, Nanotech Security Corp (NTS.V)s Williams Percent Range or 14 day Williams %R is resting at -42.11. Values can range from 0 to -100. A reading between -80 to -100 may be typically viewed as strong oversold territory. A value between 0 to -20 would represent a strong overbought condition. As a momentum indicator, the Williams R% may be used with other technicals to help define a specific trend.

When performing stock analysis, investors and traders may opt to view technical levels. Nanotech Security Corp (NTS.V) presently has a 14-day Commodity Channel Index (CCI) of 37.88. Investors and traders may use this indicator to help spot price reversals, price extremes, and the strength of a trend. Many investors will use the CCI in conjunction with other indicators when evaluating a trade. The CCI may be used to spot if a stock is entering overbought (+100) and oversold (-100) territory.

Checking in on moving averages, the 200-day is at 1.31, the 50-day is 1.30, and the 7-day is sitting at 1.37. Moving averages may be used by investors and traders to shed some light on trading patterns for a specific stock. Moving averages can be used to help smooth information in order to provide a clearer picture of what is going on with the stock. Technical stock analysts may use a combination of different time periods in order to figure out the history of the equity and where it may be headed in the future. MAs can be calculated for any time period, but two very popular time frames are the 50-day and 200-day moving averages.

Shifting gears to the Relative Strength Index, the 14-day RSI is currently sitting at 57.53, the 7-day is 56.83, and the 3-day is currently at 53.78 for Nanotech Security Corp (NTS.V). The Relative Strength Index (RSI) is a highly popular momentum indicator used for technical analysis. The RSI can help display whether the bulls or the bears are currently strongest in the market. The RSI may be used to help spot points of reversals more accurately. The RSI was developed by J. Welles Wilder. As a general rule, an RSI reading over 70 would signal overbought conditions. A reading under 30 would indicate oversold conditions. As always, the values may need to be adjusted based on the specific stock and market. RSI can also be a valuable tool for trying to spot larger market turns.

Read more:

Share Performance Update on Nanotech Security Corp (NTS.V) - Morgan Research

DUBLIN, August 17, 2017 /PRNewswire/ --

The "Global Nanotech-enabled Aircraft Power Solutions Market 2017-2021" report has been added to Research and Markets' offering.

The global nanotech-enabled aircraft power solutions market to grow at a CAGR of 8.89% during the period 2017-2021.

The report, Global Nanotech-Enabled Aircraft Power Solutions Market 2017-2021, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the key vendors operating in this market.

The latest trend gaining momentum in the market is the emergence of zero-fuel aircraft. Zero-fuel aircraft use photovoltaic panels that absorb energy from the sun and convert them into energy to thrust the engines. Of late, there has been an increasing interest in the commercial and civil sectors for using such aircraft in applications, including agriculture, aerial photography, 3D mapping, wildlife protection, and provision of internet access in remote places. With the growing need for reduction of greenhouse gases emissions, government agencies, in collaboration with private entities, are significantly developing new approaches, such as the use of solar technologies and maximizing the absorption of solar power.

According to the report, one of the major drivers for this market is demand for lightweight and fuel-efficient aircraft. To address the challenges arising from global warming and climatic changes, aerospace stakeholders are actively promoting carbon-reducing measures and energy savings. These initiatives are expected to bring down greenhouse gas emissions that have adverse environmental impacts. Since the late 90s, a number of initiatives have been directed toward substantially reducing the fuel consumptions during flight, landing, and taxiing of aircraft.

Further, the report states that one of the major factors hindering the growth of this market is constrained durability and instability of nanoparticles. The robustness of fuel cell systems is lower compared with the internal combustion engines, particularly in the specific temperature and humidity ranges in which an aircraft driven by a fuel cell would operate. The durability of a commonplace fuel cell stack is half the optimum durability required for its use in commercial aviation.

Key vendors

Other prominent vendors

Key Topics Covered:

Part 01: Executive Summary

Part 02: Scope Of The Report

Part 03: Research Methodology

Part 04: Introduction

Part 05: Market Landscape

Part 06: Market Segmentation By Application

Part 07: Geographical Segmentation

Part 08: Decision Framework

Part 09: Drivers And Challenges

Part 10: Market Trends

Part 11: Vendor Landscape

Part 12: Appendix

For more information about this report visit https://www.researchandmarkets.com/research/n63cgn/global

Media Contact:

Laura Wood, Senior Manager rel="nofollow">press@researchandmarkets.com

For E.S.T Office Hours Call +1-917-300-0470 For U.S./CAN Toll Free Call +1-800-526-8630 For GMT Office Hours Call +353-1-416-8900

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View original content:http://www.prnewswire.com/news-releases/global-nanotech-enabled-aircraft-power-solutions-market-to-grow-at-a-cagr-of-88-by-2021-demand-for-lightweight--fuel-efficient-aircrafts-300505396.html

SOURCE Research and Markets

Original post:

Global Nanotech-enabled Aircraft Power Solutions Market to Grow ... - Markets Insider

Nanotech Security Corp (NTSFF) shares opened the last session at $1.1000, touching a high of $1.1100 and a low of $1.0900 , yielding a change of-0.01. The latest reading places the stock above the Ichimoku cloud which indicates positive momentum and a potential buy signal.The Ichimoku Cloud was originally called the Ichimoku Kinko Hyo. Where Ichimoku means one glance,Kinko balance and Hyo chart. Thus the full translation could best be described as one glance balanced chart. Originally developed by Goichi Hosada pre WWII, a newspaper journalist (published in 1969) who wanted to develop an Uber-indicator that could provide the trader with various levels of support/resistance, entry/exit points, direction of the trend, and strength of the signal.

The most basic theory of this indicator is that if the price is above the cloud, the overall trend is bullish while below the cloud is bearish, and in the cloud is non-biased or unclear. Lastly, when the price is above the cloud, then the top of the cloud will act as a general support level, and when price is below, the cloud base will act as resistance. But remember the cloud has thickness, and thus resistance does as well, which by making these thicker reduces the risk of a false breakout.

Many investors enter the stock market without a plan in place. Investment goals may be a highly important part of coming out on top. Investors may need to set realistic and measureable goals in order to build a baseline for success. Defining investment goals clearly can help keep individual investors from making common mistakes and losing their shirts. Creating a plan for entering the equity market may start by setting up goals and outlining the objectives of the individual. These goals can differ depending on the person and situation. Many investors will opt to follow strategies put in place by others. This may work fine for some, but not as well for others. Keeping a close eye on particular stocks in the portfolio may help the investor when the time comes to adjust the holdings. Being able to adapt to rapidly changing market environments may turn out to be immensely important when the winds of uncertainty blow in.

Another popular tool among technical stock analysts is the moving average. Moving averages are considered to be lagging indicators that simply take the average price of a stock over a specific period of time. Moving averages can be very useful for identifying peaks and troughs. They may also be used to help the trader figure out proper support and resistance levels for the stock. Currently, the 200-day MA is sitting at 0.95, and the 50-day is 1.00.

The 14-day ADX for Nanotech Security Corp (NTSFF) is currently at 30.59. In general, and ADX value from 0-25 would represent an absent or weak trend. A value of 25-50 would support a strong trend. A value of 50-75 would signify a very strong trend, and a value of 75-100 would point to an extremely strong trend. Checking in on some other technical levels, the 14-day RSI is currently at 57.19, the 7-day stands at 55.77, and the 3-day is sitting at 57.70. The Relative Strength Index (RSI) is a momentum oscillator that measures the speed and change of stock price movements. The RSI was developed by J. Welles Wilder, and it oscillates between 0 and 100. Generally, the RSI is considered to be oversold when it falls below 30 and overbought when it heads above 70. RSI can be used to detect general trends as well as finding divergences and failure swings.

At the time of writing, Nanotech Security Corp (NTSFF) has a 14-day Commodity Channel Index (CCI) of 12.48. Developed by Donald Lambert, the CCI is a versatile tool that may be used to help spot an emerging trend or provide warning of extreme conditions. CCI generally measures the current price relative to the average price level over a specific time period. CCI is relatively high when prices are much higher than average, and relatively low when prices are much lower than the average. Investors may be watching other technical indicators such as the Williams Percent Range or Williams %R. The Williams %R is a momentum indicator that helps measure oversold and overbought levels. This indicator compares the closing price of a stock in relation to the highs and lows over a certain time period. A common look back period is 14 days. Nanotech Security Corp (NTSFF)s Williams %R presently stands at -55.56. The Williams %R oscillates in a range from 0 to -100. A reading between 0 and -20 would indicate an overbought situation. A reading from -80 to -100 would indicate an oversold situation.

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Positive Ichimoku Levels For Nanotech Security Corp (NTSFF) Indicate Upward Momentum - Concord Register